nsdispatch.c revision 1.33.6.2
1 1.33.6.2 gmcgarry /* $NetBSD: nsdispatch.c,v 1.33.6.2 2008/08/17 10:51:20 gmcgarry Exp $ */ 2 1.33.6.2 gmcgarry 3 1.33.6.2 gmcgarry /*- 4 1.33.6.2 gmcgarry * Copyright (c) 1997, 1998, 1999, 2004 The NetBSD Foundation, Inc. 5 1.33.6.2 gmcgarry * All rights reserved. 6 1.33.6.2 gmcgarry * 7 1.33.6.2 gmcgarry * This code is derived from software contributed to The NetBSD Foundation 8 1.33.6.2 gmcgarry * by Luke Mewburn; and by Jason R. Thorpe. 9 1.33.6.2 gmcgarry * 10 1.33.6.2 gmcgarry * Redistribution and use in source and binary forms, with or without 11 1.33.6.2 gmcgarry * modification, are permitted provided that the following conditions 12 1.33.6.2 gmcgarry * are met: 13 1.33.6.2 gmcgarry * 1. Redistributions of source code must retain the above copyright 14 1.33.6.2 gmcgarry * notice, this list of conditions and the following disclaimer. 15 1.33.6.2 gmcgarry * 2. Redistributions in binary form must reproduce the above copyright 16 1.33.6.2 gmcgarry * notice, this list of conditions and the following disclaimer in the 17 1.33.6.2 gmcgarry * documentation and/or other materials provided with the distribution. 18 1.33.6.2 gmcgarry * 19 1.33.6.2 gmcgarry * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.33.6.2 gmcgarry * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.33.6.2 gmcgarry * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.33.6.2 gmcgarry * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.33.6.2 gmcgarry * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.33.6.2 gmcgarry * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.33.6.2 gmcgarry * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.33.6.2 gmcgarry * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.33.6.2 gmcgarry * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.33.6.2 gmcgarry * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.33.6.2 gmcgarry * POSSIBILITY OF SUCH DAMAGE. 30 1.33.6.2 gmcgarry */ 31 1.33.6.2 gmcgarry 32 1.33.6.2 gmcgarry /*- 33 1.33.6.2 gmcgarry * Copyright (c) 2003 Networks Associates Technology, Inc. 34 1.33.6.2 gmcgarry * All rights reserved. 35 1.33.6.2 gmcgarry * 36 1.33.6.2 gmcgarry * Portions of this software were developed for the FreeBSD Project by 37 1.33.6.2 gmcgarry * Jacques A. Vidrine, Safeport Network Services, and Network 38 1.33.6.2 gmcgarry * Associates Laboratories, the Security Research Division of Network 39 1.33.6.2 gmcgarry * Associates, Inc. under DARPA/SPAWAR contract N66001-01-C-8035 40 1.33.6.2 gmcgarry * ("CBOSS"), as part of the DARPA CHATS research program. 41 1.33.6.2 gmcgarry * 42 1.33.6.2 gmcgarry * Redistribution and use in source and binary forms, with or without 43 1.33.6.2 gmcgarry * modification, are permitted provided that the following conditions 44 1.33.6.2 gmcgarry * are met: 45 1.33.6.2 gmcgarry * 1. Redistributions of source code must retain the above copyright 46 1.33.6.2 gmcgarry * notice, this list of conditions and the following disclaimer. 47 1.33.6.2 gmcgarry * 2. Redistributions in binary form must reproduce the above copyright 48 1.33.6.2 gmcgarry * notice, this list of conditions and the following disclaimer in the 49 1.33.6.2 gmcgarry * documentation and/or other materials provided with the distribution. 50 1.33.6.2 gmcgarry * 51 1.33.6.2 gmcgarry * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 52 1.33.6.2 gmcgarry * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 53 1.33.6.2 gmcgarry * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 54 1.33.6.2 gmcgarry * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 55 1.33.6.2 gmcgarry * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 56 1.33.6.2 gmcgarry * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 57 1.33.6.2 gmcgarry * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 58 1.33.6.2 gmcgarry * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 59 1.33.6.2 gmcgarry * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 60 1.33.6.2 gmcgarry * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 61 1.33.6.2 gmcgarry * SUCH DAMAGE. 62 1.33.6.2 gmcgarry */ 63 1.33.6.2 gmcgarry 64 1.33.6.2 gmcgarry #include <sys/cdefs.h> 65 1.33.6.2 gmcgarry #if defined(LIBC_SCCS) && !defined(lint) 66 1.33.6.2 gmcgarry __RCSID("$NetBSD: nsdispatch.c,v 1.33.6.2 2008/08/17 10:51:20 gmcgarry Exp $"); 67 1.33.6.2 gmcgarry #endif /* LIBC_SCCS and not lint */ 68 1.33.6.2 gmcgarry 69 1.33.6.2 gmcgarry #include "namespace.h" 70 1.33.6.2 gmcgarry 71 1.33.6.2 gmcgarry #include <sys/types.h> 72 1.33.6.2 gmcgarry #include <sys/param.h> 73 1.33.6.2 gmcgarry #include <sys/stat.h> 74 1.33.6.2 gmcgarry #include <sys/queue.h> 75 1.33.6.2 gmcgarry 76 1.33.6.2 gmcgarry #include <assert.h> 77 1.33.6.2 gmcgarry #ifdef __ELF__ 78 1.33.6.2 gmcgarry #include <dlfcn.h> 79 1.33.6.2 gmcgarry #endif /* __ELF__ */ 80 1.33.6.2 gmcgarry #include <err.h> 81 1.33.6.2 gmcgarry #include <fcntl.h> 82 1.33.6.2 gmcgarry #define _NS_PRIVATE 83 1.33.6.2 gmcgarry #include <nsswitch.h> 84 1.33.6.2 gmcgarry #include <stdarg.h> 85 1.33.6.2 gmcgarry #include <stdio.h> 86 1.33.6.2 gmcgarry #include <stdlib.h> 87 1.33.6.2 gmcgarry #include <string.h> 88 1.33.6.2 gmcgarry #include <unistd.h> 89 1.33.6.2 gmcgarry 90 1.33.6.2 gmcgarry #include "reentrant.h" 91 1.33.6.2 gmcgarry 92 1.33.6.2 gmcgarry extern FILE *_nsyyin; 93 1.33.6.2 gmcgarry extern int _nsyyparse(void); 94 1.33.6.2 gmcgarry 95 1.33.6.2 gmcgarry 96 1.33.6.2 gmcgarry #ifdef __weak_alias 97 1.33.6.2 gmcgarry __weak_alias(nsdispatch,_nsdispatch) 98 1.33.6.2 gmcgarry #endif 99 1.33.6.2 gmcgarry 100 1.33.6.2 gmcgarry 101 1.33.6.2 gmcgarry /* 102 1.33.6.2 gmcgarry * default sourcelist: `files' 103 1.33.6.2 gmcgarry */ 104 1.33.6.2 gmcgarry const ns_src __nsdefaultsrc[] = { 105 1.33.6.2 gmcgarry { NSSRC_FILES, NS_SUCCESS }, 106 1.33.6.2 gmcgarry { 0, 0 }, 107 1.33.6.2 gmcgarry }; 108 1.33.6.2 gmcgarry 109 1.33.6.2 gmcgarry const ns_src __nsdefaultcompat[] = { 110 1.33.6.2 gmcgarry { NSSRC_COMPAT, NS_SUCCESS }, 111 1.33.6.2 gmcgarry { 0, 0 } 112 1.33.6.2 gmcgarry }; 113 1.33.6.2 gmcgarry 114 1.33.6.2 gmcgarry const ns_src __nsdefaultcompat_forceall[] = { 115 1.33.6.2 gmcgarry { NSSRC_COMPAT, NS_SUCCESS | NS_FORCEALL }, 116 1.33.6.2 gmcgarry { 0, 0 } 117 1.33.6.2 gmcgarry }; 118 1.33.6.2 gmcgarry 119 1.33.6.2 gmcgarry const ns_src __nsdefaultfiles[] = { 120 1.33.6.2 gmcgarry { NSSRC_FILES, NS_SUCCESS }, 121 1.33.6.2 gmcgarry { 0, 0 }, 122 1.33.6.2 gmcgarry }; 123 1.33.6.2 gmcgarry 124 1.33.6.2 gmcgarry const ns_src __nsdefaultfiles_forceall[] = { 125 1.33.6.2 gmcgarry { NSSRC_FILES, NS_SUCCESS | NS_FORCEALL }, 126 1.33.6.2 gmcgarry { 0, 0 }, 127 1.33.6.2 gmcgarry }; 128 1.33.6.2 gmcgarry 129 1.33.6.2 gmcgarry const ns_src __nsdefaultnis[] = { 130 1.33.6.2 gmcgarry { NSSRC_NIS, NS_SUCCESS }, 131 1.33.6.2 gmcgarry { 0, 0 } 132 1.33.6.2 gmcgarry }; 133 1.33.6.2 gmcgarry 134 1.33.6.2 gmcgarry const ns_src __nsdefaultnis_forceall[] = { 135 1.33.6.2 gmcgarry { NSSRC_NIS, NS_SUCCESS | NS_FORCEALL }, 136 1.33.6.2 gmcgarry { 0, 0 } 137 1.33.6.2 gmcgarry }; 138 1.33.6.2 gmcgarry 139 1.33.6.2 gmcgarry 140 1.33.6.2 gmcgarry /* Database, source mappings. */ 141 1.33.6.2 gmcgarry static u_int _nsmapsize; 142 1.33.6.2 gmcgarry static ns_dbt *_nsmap; 143 1.33.6.2 gmcgarry 144 1.33.6.2 gmcgarry /* Nsswitch modules. */ 145 1.33.6.2 gmcgarry static u_int _nsmodsize; 146 1.33.6.2 gmcgarry static ns_mod *_nsmod; 147 1.33.6.2 gmcgarry 148 1.33.6.2 gmcgarry /* Placeholder for built-in modules' dlopen() handles. */ 149 1.33.6.2 gmcgarry static void *_nsbuiltin = &_nsbuiltin; 150 1.33.6.2 gmcgarry 151 1.33.6.2 gmcgarry #ifdef _REENTRANT 152 1.33.6.2 gmcgarry /* 153 1.33.6.2 gmcgarry * Global nsswitch data structures are mostly read-only, but we update them 154 1.33.6.2 gmcgarry * when we read or re-read nsswitch.conf. 155 1.33.6.2 gmcgarry */ 156 1.33.6.2 gmcgarry static rwlock_t _nslock = RWLOCK_INITIALIZER; 157 1.33.6.2 gmcgarry 158 1.33.6.2 gmcgarry /* 159 1.33.6.2 gmcgarry * List of threads currently in nsdispatch(). We use this to detect 160 1.33.6.2 gmcgarry * recursive calls and avoid reloading configuration in such cases, 161 1.33.6.2 gmcgarry * which could cause deadlock. 162 1.33.6.2 gmcgarry */ 163 1.33.6.2 gmcgarry struct _ns_drec { 164 1.33.6.2 gmcgarry LIST_ENTRY(_ns_drec) list; 165 1.33.6.2 gmcgarry thr_t thr; 166 1.33.6.2 gmcgarry }; 167 1.33.6.2 gmcgarry static LIST_HEAD(, _ns_drec) _ns_drec = LIST_HEAD_INITIALIZER(&_ns_drec); 168 1.33.6.2 gmcgarry static mutex_t _ns_drec_lock = MUTEX_INITIALIZER; 169 1.33.6.2 gmcgarry #endif /* _REENTRANT */ 170 1.33.6.2 gmcgarry 171 1.33.6.2 gmcgarry 172 1.33.6.2 gmcgarry /* 173 1.33.6.2 gmcgarry * Runtime determination of whether we are dynamically linked or not. 174 1.33.6.2 gmcgarry */ 175 1.33.6.2 gmcgarry #ifdef __ELF__ 176 1.33.6.2 gmcgarry extern int _DYNAMIC __weak_reference(_DYNAMIC); 177 1.33.6.2 gmcgarry #define is_dynamic() (&_DYNAMIC != NULL) 178 1.33.6.2 gmcgarry #else 179 1.33.6.2 gmcgarry #define is_dynamic() (0) /* don't bother - switch to ELF! */ 180 1.33.6.2 gmcgarry #endif /* __ELF__ */ 181 1.33.6.2 gmcgarry 182 1.33.6.2 gmcgarry 183 1.33.6.2 gmcgarry /* 184 1.33.6.2 gmcgarry * size of dynamic array chunk for _nsmap and _nsmap[x].srclist (and other 185 1.33.6.2 gmcgarry * growing arrays). 186 1.33.6.2 gmcgarry */ 187 1.33.6.2 gmcgarry #define NSELEMSPERCHUNK 8 188 1.33.6.2 gmcgarry 189 1.33.6.2 gmcgarry /* 190 1.33.6.2 gmcgarry * Dynamically growable arrays are used for lists of databases, sources, 191 1.33.6.2 gmcgarry * and modules. The following "vector" API is used to isolate the 192 1.33.6.2 gmcgarry * common operations. 193 1.33.6.2 gmcgarry */ 194 1.33.6.2 gmcgarry typedef void (*_nsvect_free_elem)(void *); 195 1.33.6.2 gmcgarry 196 1.33.6.2 gmcgarry static void * 197 1.33.6.2 gmcgarry _nsvect_append(const void *elem, void *vec, u_int *count, size_t esize) 198 1.33.6.2 gmcgarry { 199 1.33.6.2 gmcgarry void *p; 200 1.33.6.2 gmcgarry 201 1.33.6.2 gmcgarry if ((*count % NSELEMSPERCHUNK) == 0) { 202 1.33.6.2 gmcgarry p = realloc(vec, (*count + NSELEMSPERCHUNK) * esize); 203 1.33.6.2 gmcgarry if (p == NULL) 204 1.33.6.2 gmcgarry return (NULL); 205 1.33.6.2 gmcgarry vec = p; 206 1.33.6.2 gmcgarry } 207 1.33.6.2 gmcgarry memmove((void *)(((uintptr_t)vec) + (*count * esize)), elem, esize); 208 1.33.6.2 gmcgarry (*count)++; 209 1.33.6.2 gmcgarry return (vec); 210 1.33.6.2 gmcgarry } 211 1.33.6.2 gmcgarry 212 1.33.6.2 gmcgarry static void * 213 1.33.6.2 gmcgarry _nsvect_elem(u_int i, void *vec, u_int count, size_t esize) 214 1.33.6.2 gmcgarry { 215 1.33.6.2 gmcgarry 216 1.33.6.2 gmcgarry if (i < count) 217 1.33.6.2 gmcgarry return ((void *)((uintptr_t)vec + (i * esize))); 218 1.33.6.2 gmcgarry else 219 1.33.6.2 gmcgarry return (NULL); 220 1.33.6.2 gmcgarry } 221 1.33.6.2 gmcgarry 222 1.33.6.2 gmcgarry static void 223 1.33.6.2 gmcgarry _nsvect_free(void *vec, u_int *count, size_t esize, _nsvect_free_elem free_elem) 224 1.33.6.2 gmcgarry { 225 1.33.6.2 gmcgarry void *elem; 226 1.33.6.2 gmcgarry u_int i; 227 1.33.6.2 gmcgarry 228 1.33.6.2 gmcgarry for (i = 0; i < *count; i++) { 229 1.33.6.2 gmcgarry elem = _nsvect_elem(i, vec, *count, esize); 230 1.33.6.2 gmcgarry if (elem != NULL) 231 1.33.6.2 gmcgarry (*free_elem)(elem); 232 1.33.6.2 gmcgarry } 233 1.33.6.2 gmcgarry if (vec != NULL) 234 1.33.6.2 gmcgarry free(vec); 235 1.33.6.2 gmcgarry *count = 0; 236 1.33.6.2 gmcgarry } 237 1.33.6.2 gmcgarry #define _NSVECT_FREE(v, c, s, f) \ 238 1.33.6.2 gmcgarry do { \ 239 1.33.6.2 gmcgarry _nsvect_free((v), (c), (s), (f)); \ 240 1.33.6.2 gmcgarry (v) = NULL; \ 241 1.33.6.2 gmcgarry } while (/*CONSTCOND*/0) 242 1.33.6.2 gmcgarry 243 1.33.6.2 gmcgarry static int 244 1.33.6.2 gmcgarry _nsdbtcmp(const void *a, const void *b) 245 1.33.6.2 gmcgarry { 246 1.33.6.2 gmcgarry 247 1.33.6.2 gmcgarry return (strcasecmp(((const ns_dbt *)a)->name, 248 1.33.6.2 gmcgarry ((const ns_dbt *)b)->name)); 249 1.33.6.2 gmcgarry } 250 1.33.6.2 gmcgarry 251 1.33.6.2 gmcgarry static int 252 1.33.6.2 gmcgarry _nsmodcmp(const void *a, const void *b) 253 1.33.6.2 gmcgarry { 254 1.33.6.2 gmcgarry 255 1.33.6.2 gmcgarry return (strcasecmp(((const ns_mod *)a)->name, 256 1.33.6.2 gmcgarry ((const ns_mod *)b)->name)); 257 1.33.6.2 gmcgarry } 258 1.33.6.2 gmcgarry 259 1.33.6.2 gmcgarry static int 260 1.33.6.2 gmcgarry _nsmtabcmp(const void *a, const void *b) 261 1.33.6.2 gmcgarry { 262 1.33.6.2 gmcgarry int cmp; 263 1.33.6.2 gmcgarry 264 1.33.6.2 gmcgarry cmp = strcmp(((const ns_mtab *)a)->name, 265 1.33.6.2 gmcgarry ((const ns_mtab *)b)->name); 266 1.33.6.2 gmcgarry if (cmp) 267 1.33.6.2 gmcgarry return (cmp); 268 1.33.6.2 gmcgarry 269 1.33.6.2 gmcgarry return (strcasecmp(((const ns_mtab *)a)->database, 270 1.33.6.2 gmcgarry ((const ns_mtab *)b)->database)); 271 1.33.6.2 gmcgarry } 272 1.33.6.2 gmcgarry 273 1.33.6.2 gmcgarry static void 274 1.33.6.2 gmcgarry _nsmodfree(ns_mod *mod) 275 1.33.6.2 gmcgarry { 276 1.33.6.2 gmcgarry 277 1.33.6.2 gmcgarry free(__UNCONST(mod->name)); 278 1.33.6.2 gmcgarry if (mod->handle == NULL) 279 1.33.6.2 gmcgarry return; 280 1.33.6.2 gmcgarry if (mod->unregister != NULL) 281 1.33.6.2 gmcgarry (*mod->unregister)(mod->mtab, mod->mtabsize); 282 1.33.6.2 gmcgarry #ifdef __ELF__ 283 1.33.6.2 gmcgarry if (mod->handle != _nsbuiltin) 284 1.33.6.2 gmcgarry (void) dlclose(mod->handle); 285 1.33.6.2 gmcgarry #endif /* __ELF__ */ 286 1.33.6.2 gmcgarry } 287 1.33.6.2 gmcgarry 288 1.33.6.2 gmcgarry /* 289 1.33.6.2 gmcgarry * Load a built-in or dyanamically linked module. If the `reg_fn' 290 1.33.6.2 gmcgarry * argument is non-NULL, assume a built-in module and use `reg_fn' 291 1.33.6.2 gmcgarry * to register it. Otherwise, search for a dynamic nsswitch module. 292 1.33.6.2 gmcgarry */ 293 1.33.6.2 gmcgarry static int 294 1.33.6.2 gmcgarry _nsloadmod(const char *source, nss_module_register_fn reg_fn) 295 1.33.6.2 gmcgarry { 296 1.33.6.2 gmcgarry #ifdef __ELF__ 297 1.33.6.2 gmcgarry char buf[PATH_MAX]; 298 1.33.6.2 gmcgarry #endif 299 1.33.6.2 gmcgarry ns_mod mod, *new; 300 1.33.6.2 gmcgarry 301 1.33.6.2 gmcgarry memset(&mod, 0, sizeof(mod)); 302 1.33.6.2 gmcgarry mod.name = strdup(source); 303 1.33.6.2 gmcgarry if (mod.name == NULL) 304 1.33.6.2 gmcgarry return (-1); 305 1.33.6.2 gmcgarry 306 1.33.6.2 gmcgarry if (reg_fn != NULL) { 307 1.33.6.2 gmcgarry /* 308 1.33.6.2 gmcgarry * The placeholder is required, as a NULL handle 309 1.33.6.2 gmcgarry * represents an invalid module. 310 1.33.6.2 gmcgarry */ 311 1.33.6.2 gmcgarry mod.handle = _nsbuiltin; 312 1.33.6.2 gmcgarry } else if (!is_dynamic()) { 313 1.33.6.2 gmcgarry goto out; 314 1.33.6.2 gmcgarry } else { 315 1.33.6.2 gmcgarry #ifdef __ELF__ 316 1.33.6.2 gmcgarry if (snprintf(buf, sizeof(buf), "nss_%s.so.%d", mod.name, 317 1.33.6.2 gmcgarry NSS_MODULE_INTERFACE_VERSION) >= (int)sizeof(buf)) 318 1.33.6.2 gmcgarry goto out; 319 1.33.6.2 gmcgarry mod.handle = dlopen(buf, RTLD_LOCAL | RTLD_LAZY); 320 1.33.6.2 gmcgarry if (mod.handle == NULL) { 321 1.33.6.2 gmcgarry #ifdef _NSS_DEBUG 322 1.33.6.2 gmcgarry /* 323 1.33.6.2 gmcgarry * This gets pretty annoying, since the built-in 324 1.33.6.2 gmcgarry * sources are not yet modules. 325 1.33.6.2 gmcgarry */ 326 1.33.6.2 gmcgarry /* XXX log some error? */ 327 1.33.6.2 gmcgarry #endif 328 1.33.6.2 gmcgarry goto out; 329 1.33.6.2 gmcgarry } 330 1.33.6.2 gmcgarry reg_fn = (nss_module_register_fn) dlsym(mod.handle, 331 1.33.6.2 gmcgarry "nss_module_register"); 332 1.33.6.2 gmcgarry if (reg_fn == NULL) { 333 1.33.6.2 gmcgarry (void) dlclose(mod.handle); 334 1.33.6.2 gmcgarry mod.handle = NULL; 335 1.33.6.2 gmcgarry /* XXX log some error? */ 336 1.33.6.2 gmcgarry goto out; 337 1.33.6.2 gmcgarry } 338 1.33.6.2 gmcgarry #else /* ! __ELF__ */ 339 1.33.6.2 gmcgarry mod.handle = NULL; 340 1.33.6.2 gmcgarry #endif /* __ELF__ */ 341 1.33.6.2 gmcgarry } 342 1.33.6.2 gmcgarry mod.mtab = (*reg_fn)(mod.name, &mod.mtabsize, &mod.unregister); 343 1.33.6.2 gmcgarry if (mod.mtab == NULL || mod.mtabsize == 0) { 344 1.33.6.2 gmcgarry #ifdef __ELF__ 345 1.33.6.2 gmcgarry if (mod.handle != _nsbuiltin) 346 1.33.6.2 gmcgarry (void) dlclose(mod.handle); 347 1.33.6.2 gmcgarry #endif /* __ELF__ */ 348 1.33.6.2 gmcgarry mod.handle = NULL; 349 1.33.6.2 gmcgarry /* XXX log some error? */ 350 1.33.6.2 gmcgarry goto out; 351 1.33.6.2 gmcgarry } 352 1.33.6.2 gmcgarry if (mod.mtabsize > 1) 353 1.33.6.2 gmcgarry qsort(mod.mtab, mod.mtabsize, sizeof(mod.mtab[0]), 354 1.33.6.2 gmcgarry _nsmtabcmp); 355 1.33.6.2 gmcgarry out: 356 1.33.6.2 gmcgarry new = _nsvect_append(&mod, _nsmod, &_nsmodsize, sizeof(*_nsmod)); 357 1.33.6.2 gmcgarry if (new == NULL) { 358 1.33.6.2 gmcgarry _nsmodfree(&mod); 359 1.33.6.2 gmcgarry return (-1); 360 1.33.6.2 gmcgarry } 361 1.33.6.2 gmcgarry _nsmod = new; 362 1.33.6.2 gmcgarry /* _nsmodsize already incremented */ 363 1.33.6.2 gmcgarry 364 1.33.6.2 gmcgarry qsort(_nsmod, _nsmodsize, sizeof(*_nsmod), _nsmodcmp); 365 1.33.6.2 gmcgarry return (0); 366 1.33.6.2 gmcgarry } 367 1.33.6.2 gmcgarry 368 1.33.6.2 gmcgarry static void 369 1.33.6.2 gmcgarry _nsloadbuiltin(void) 370 1.33.6.2 gmcgarry { 371 1.33.6.2 gmcgarry 372 1.33.6.2 gmcgarry /* Do nothing, for now. */ 373 1.33.6.2 gmcgarry } 374 1.33.6.2 gmcgarry 375 1.33.6.2 gmcgarry int 376 1.33.6.2 gmcgarry _nsdbtaddsrc(ns_dbt *dbt, const ns_src *src) 377 1.33.6.2 gmcgarry { 378 1.33.6.2 gmcgarry void *new; 379 1.33.6.2 gmcgarry const ns_mod *mod; 380 1.33.6.2 gmcgarry ns_mod modkey; 381 1.33.6.2 gmcgarry 382 1.33.6.2 gmcgarry _DIAGASSERT(dbt != NULL); 383 1.33.6.2 gmcgarry _DIAGASSERT(src != NULL); 384 1.33.6.2 gmcgarry 385 1.33.6.2 gmcgarry new = _nsvect_append(src, dbt->srclist, &dbt->srclistsize, 386 1.33.6.2 gmcgarry sizeof(*src)); 387 1.33.6.2 gmcgarry if (new == NULL) 388 1.33.6.2 gmcgarry return (-1); 389 1.33.6.2 gmcgarry dbt->srclist = new; 390 1.33.6.2 gmcgarry /* dbt->srclistsize already incremented */ 391 1.33.6.2 gmcgarry 392 1.33.6.2 gmcgarry modkey.name = src->name; 393 1.33.6.2 gmcgarry mod = bsearch(&modkey, _nsmod, _nsmodsize, sizeof(*_nsmod), 394 1.33.6.2 gmcgarry _nsmodcmp); 395 1.33.6.2 gmcgarry if (mod == NULL) 396 1.33.6.2 gmcgarry return (_nsloadmod(src->name, NULL)); 397 1.33.6.2 gmcgarry 398 1.33.6.2 gmcgarry return (0); 399 1.33.6.2 gmcgarry } 400 1.33.6.2 gmcgarry 401 1.33.6.2 gmcgarry void 402 1.33.6.2 gmcgarry _nsdbtdump(const ns_dbt *dbt) 403 1.33.6.2 gmcgarry { 404 1.33.6.2 gmcgarry int i; 405 1.33.6.2 gmcgarry 406 1.33.6.2 gmcgarry _DIAGASSERT(dbt != NULL); 407 1.33.6.2 gmcgarry 408 1.33.6.2 gmcgarry printf("%s (%d source%s):", dbt->name, dbt->srclistsize, 409 1.33.6.2 gmcgarry dbt->srclistsize == 1 ? "" : "s"); 410 1.33.6.2 gmcgarry for (i = 0; i < dbt->srclistsize; i++) { 411 1.33.6.2 gmcgarry printf(" %s", dbt->srclist[i].name); 412 1.33.6.2 gmcgarry if (!(dbt->srclist[i].flags & 413 1.33.6.2 gmcgarry (NS_UNAVAIL|NS_NOTFOUND|NS_TRYAGAIN)) && 414 1.33.6.2 gmcgarry (dbt->srclist[i].flags & NS_SUCCESS)) 415 1.33.6.2 gmcgarry continue; 416 1.33.6.2 gmcgarry printf(" ["); 417 1.33.6.2 gmcgarry if (!(dbt->srclist[i].flags & NS_SUCCESS)) 418 1.33.6.2 gmcgarry printf(" SUCCESS=continue"); 419 1.33.6.2 gmcgarry if (dbt->srclist[i].flags & NS_UNAVAIL) 420 1.33.6.2 gmcgarry printf(" UNAVAIL=return"); 421 1.33.6.2 gmcgarry if (dbt->srclist[i].flags & NS_NOTFOUND) 422 1.33.6.2 gmcgarry printf(" NOTFOUND=return"); 423 1.33.6.2 gmcgarry if (dbt->srclist[i].flags & NS_TRYAGAIN) 424 1.33.6.2 gmcgarry printf(" TRYAGAIN=return"); 425 1.33.6.2 gmcgarry printf(" ]"); 426 1.33.6.2 gmcgarry } 427 1.33.6.2 gmcgarry printf("\n"); 428 1.33.6.2 gmcgarry } 429 1.33.6.2 gmcgarry 430 1.33.6.2 gmcgarry static void 431 1.33.6.2 gmcgarry _nssrclist_free(ns_src **src, u_int srclistsize) 432 1.33.6.2 gmcgarry { 433 1.33.6.2 gmcgarry u_int i; 434 1.33.6.2 gmcgarry 435 1.33.6.2 gmcgarry for (i = 0; i < srclistsize; i++) { 436 1.33.6.2 gmcgarry if ((*src)[i].name != NULL) 437 1.33.6.2 gmcgarry free(__UNCONST((*src)[i].name)); 438 1.33.6.2 gmcgarry } 439 1.33.6.2 gmcgarry free(*src); 440 1.33.6.2 gmcgarry *src = NULL; 441 1.33.6.2 gmcgarry } 442 1.33.6.2 gmcgarry 443 1.33.6.2 gmcgarry static void 444 1.33.6.2 gmcgarry _nsdbtfree(ns_dbt *dbt) 445 1.33.6.2 gmcgarry { 446 1.33.6.2 gmcgarry 447 1.33.6.2 gmcgarry _nssrclist_free(&dbt->srclist, dbt->srclistsize); 448 1.33.6.2 gmcgarry if (dbt->name != NULL) 449 1.33.6.2 gmcgarry free(__UNCONST(dbt->name)); 450 1.33.6.2 gmcgarry } 451 1.33.6.2 gmcgarry 452 1.33.6.2 gmcgarry int 453 1.33.6.2 gmcgarry _nsdbtput(const ns_dbt *dbt) 454 1.33.6.2 gmcgarry { 455 1.33.6.2 gmcgarry ns_dbt *p; 456 1.33.6.2 gmcgarry void *new; 457 1.33.6.2 gmcgarry u_int i; 458 1.33.6.2 gmcgarry 459 1.33.6.2 gmcgarry _DIAGASSERT(dbt != NULL); 460 1.33.6.2 gmcgarry 461 1.33.6.2 gmcgarry for (i = 0; i < _nsmapsize; i++) { 462 1.33.6.2 gmcgarry p = _nsvect_elem(i, _nsmap, _nsmapsize, sizeof(*_nsmap)); 463 1.33.6.2 gmcgarry if (strcasecmp(dbt->name, p->name) == 0) { 464 1.33.6.2 gmcgarry /* overwrite existing entry */ 465 1.33.6.2 gmcgarry if (p->srclist != NULL) 466 1.33.6.2 gmcgarry _nssrclist_free(&p->srclist, p->srclistsize); 467 1.33.6.2 gmcgarry memmove(p, dbt, sizeof(*dbt)); 468 1.33.6.2 gmcgarry return (0); 469 1.33.6.2 gmcgarry } 470 1.33.6.2 gmcgarry } 471 1.33.6.2 gmcgarry new = _nsvect_append(dbt, _nsmap, &_nsmapsize, sizeof(*_nsmap)); 472 1.33.6.2 gmcgarry if (new == NULL) 473 1.33.6.2 gmcgarry return (-1); 474 1.33.6.2 gmcgarry _nsmap = new; 475 1.33.6.2 gmcgarry /* _nsmapsize already incremented */ 476 1.33.6.2 gmcgarry 477 1.33.6.2 gmcgarry return (0); 478 1.33.6.2 gmcgarry } 479 1.33.6.2 gmcgarry 480 1.33.6.2 gmcgarry /* 481 1.33.6.2 gmcgarry * This function is called each time nsdispatch() is called. If this 482 1.33.6.2 gmcgarry * is the first call, or if the configuration has changed, (re-)prepare 483 1.33.6.2 gmcgarry * the global data used by NSS. 484 1.33.6.2 gmcgarry */ 485 1.33.6.2 gmcgarry static int 486 1.33.6.2 gmcgarry _nsconfigure(void) 487 1.33.6.2 gmcgarry { 488 1.33.6.2 gmcgarry #ifdef _REENTRANT 489 1.33.6.2 gmcgarry static mutex_t _nsconflock = MUTEX_INITIALIZER; 490 1.33.6.2 gmcgarry #endif 491 1.33.6.2 gmcgarry static time_t _nsconfmod; 492 1.33.6.2 gmcgarry struct stat statbuf; 493 1.33.6.2 gmcgarry 494 1.33.6.2 gmcgarry mutex_lock(&_nsconflock); 495 1.33.6.2 gmcgarry 496 1.33.6.2 gmcgarry if (stat(_PATH_NS_CONF, &statbuf) == -1) { 497 1.33.6.2 gmcgarry /* 498 1.33.6.2 gmcgarry * No nsswitch.conf; just use whatever configuration we 499 1.33.6.2 gmcgarry * currently have, or fall back on the defaults specified 500 1.33.6.2 gmcgarry * by the caller. 501 1.33.6.2 gmcgarry */ 502 1.33.6.2 gmcgarry mutex_unlock(&_nsconflock); 503 1.33.6.2 gmcgarry return (0); 504 1.33.6.2 gmcgarry } 505 1.33.6.2 gmcgarry 506 1.33.6.2 gmcgarry if (statbuf.st_mtime <= _nsconfmod) { 507 1.33.6.2 gmcgarry /* Internal state is up-to-date with nsswitch.conf. */ 508 1.33.6.2 gmcgarry mutex_unlock(&_nsconflock); 509 1.33.6.2 gmcgarry return (0); 510 1.33.6.2 gmcgarry } 511 1.33.6.2 gmcgarry 512 1.33.6.2 gmcgarry /* 513 1.33.6.2 gmcgarry * Ok, we've decided we need to update the nsswitch configuration 514 1.33.6.2 gmcgarry * structures. Acquire a write-lock on _nslock while continuing 515 1.33.6.2 gmcgarry * to hold _nsconflock. Acquiring a write-lock blocks while 516 1.33.6.2 gmcgarry * waiting for other threads already holding a read-lock to clear. 517 1.33.6.2 gmcgarry * We hold _nsconflock for the duration, and update the time stamp 518 1.33.6.2 gmcgarry * at the end of the update operation, at which time we release 519 1.33.6.2 gmcgarry * both locks. 520 1.33.6.2 gmcgarry */ 521 1.33.6.2 gmcgarry rwlock_wrlock(&_nslock); 522 1.33.6.2 gmcgarry 523 1.33.6.2 gmcgarry _nsyyin = fopen(_PATH_NS_CONF, "r"); 524 1.33.6.2 gmcgarry if (_nsyyin == NULL) { 525 1.33.6.2 gmcgarry /* 526 1.33.6.2 gmcgarry * Unable to open nsswitch.conf; behave as though the 527 1.33.6.2 gmcgarry * stat() above failed. Even though we have already 528 1.33.6.2 gmcgarry * updated _nsconfmod, if the file reappears, the 529 1.33.6.2 gmcgarry * mtime will change. 530 1.33.6.2 gmcgarry */ 531 1.33.6.2 gmcgarry goto out; 532 1.33.6.2 gmcgarry } 533 1.33.6.2 gmcgarry 534 1.33.6.2 gmcgarry _NSVECT_FREE(_nsmap, &_nsmapsize, sizeof(*_nsmap), 535 1.33.6.2 gmcgarry (_nsvect_free_elem) _nsdbtfree); 536 1.33.6.2 gmcgarry _NSVECT_FREE(_nsmod, &_nsmodsize, sizeof(*_nsmod), 537 1.33.6.2 gmcgarry (_nsvect_free_elem) _nsmodfree); 538 1.33.6.2 gmcgarry 539 1.33.6.2 gmcgarry _nsloadbuiltin(); 540 1.33.6.2 gmcgarry 541 1.33.6.2 gmcgarry _nsyyparse(); 542 1.33.6.2 gmcgarry (void) fclose(_nsyyin); 543 1.33.6.2 gmcgarry if (_nsmapsize != 0) 544 1.33.6.2 gmcgarry qsort(_nsmap, _nsmapsize, sizeof(*_nsmap), _nsdbtcmp); 545 1.33.6.2 gmcgarry 546 1.33.6.2 gmcgarry _nsconfmod = statbuf.st_mtime; 547 1.33.6.2 gmcgarry 548 1.33.6.2 gmcgarry out: 549 1.33.6.2 gmcgarry rwlock_unlock(&_nslock); 550 1.33.6.2 gmcgarry mutex_unlock(&_nsconflock); 551 1.33.6.2 gmcgarry return (0); 552 1.33.6.2 gmcgarry } 553 1.33.6.2 gmcgarry 554 1.33.6.2 gmcgarry static nss_method 555 1.33.6.2 gmcgarry _nsmethod(const char *source, const char *database, const char *method, 556 1.33.6.2 gmcgarry const ns_dtab disp_tab[], void **cb_data) 557 1.33.6.2 gmcgarry { 558 1.33.6.2 gmcgarry int curdisp; 559 1.33.6.2 gmcgarry ns_mod *mod, modkey; 560 1.33.6.2 gmcgarry ns_mtab *mtab, mtabkey; 561 1.33.6.2 gmcgarry 562 1.33.6.2 gmcgarry if (disp_tab != NULL) { 563 1.33.6.2 gmcgarry for (curdisp = 0; disp_tab[curdisp].src != NULL; curdisp++) { 564 1.33.6.2 gmcgarry if (strcasecmp(source, disp_tab[curdisp].src) == 0) { 565 1.33.6.2 gmcgarry *cb_data = disp_tab[curdisp].cb_data; 566 1.33.6.2 gmcgarry return (disp_tab[curdisp].callback); 567 1.33.6.2 gmcgarry } 568 1.33.6.2 gmcgarry } 569 1.33.6.2 gmcgarry } 570 1.33.6.2 gmcgarry 571 1.33.6.2 gmcgarry modkey.name = source; 572 1.33.6.2 gmcgarry mod = bsearch(&modkey, _nsmod, _nsmodsize, sizeof(*_nsmod), 573 1.33.6.2 gmcgarry _nsmodcmp); 574 1.33.6.2 gmcgarry if (mod != NULL && mod->handle != NULL) { 575 1.33.6.2 gmcgarry mtabkey.database = database; 576 1.33.6.2 gmcgarry mtabkey.name = method; 577 1.33.6.2 gmcgarry mtab = bsearch(&mtabkey, mod->mtab, mod->mtabsize, 578 1.33.6.2 gmcgarry sizeof(mod->mtab[0]), _nsmtabcmp); 579 1.33.6.2 gmcgarry if (mtab != NULL) { 580 1.33.6.2 gmcgarry *cb_data = mtab->mdata; 581 1.33.6.2 gmcgarry return (mtab->method); 582 1.33.6.2 gmcgarry } 583 1.33.6.2 gmcgarry } 584 1.33.6.2 gmcgarry 585 1.33.6.2 gmcgarry *cb_data = NULL; 586 1.33.6.2 gmcgarry return (NULL); 587 1.33.6.2 gmcgarry } 588 1.33.6.2 gmcgarry 589 1.33.6.2 gmcgarry int 590 1.33.6.2 gmcgarry /*ARGSUSED*/ 591 1.33.6.2 gmcgarry nsdispatch(void *retval, const ns_dtab disp_tab[], const char *database, 592 1.33.6.2 gmcgarry const char *method, const ns_src defaults[], ...) 593 1.33.6.2 gmcgarry { 594 1.33.6.2 gmcgarry static int _nsdispatching; 595 1.33.6.2 gmcgarry #ifdef _REENTRANT 596 1.33.6.2 gmcgarry struct _ns_drec drec, *ldrec; 597 1.33.6.2 gmcgarry #endif 598 1.33.6.2 gmcgarry va_list ap; 599 1.33.6.2 gmcgarry int i, result; 600 1.33.6.2 gmcgarry ns_dbt key; 601 1.33.6.2 gmcgarry const ns_dbt *dbt; 602 1.33.6.2 gmcgarry const ns_src *srclist; 603 1.33.6.2 gmcgarry int srclistsize; 604 1.33.6.2 gmcgarry nss_method cb; 605 1.33.6.2 gmcgarry void *cb_data; 606 1.33.6.2 gmcgarry 607 1.33.6.2 gmcgarry /* retval may be NULL */ 608 1.33.6.2 gmcgarry /* disp_tab may be NULL */ 609 1.33.6.2 gmcgarry _DIAGASSERT(database != NULL); 610 1.33.6.2 gmcgarry _DIAGASSERT(method != NULL); 611 1.33.6.2 gmcgarry _DIAGASSERT(defaults != NULL); 612 1.33.6.2 gmcgarry if (database == NULL || method == NULL || defaults == NULL) 613 1.33.6.2 gmcgarry return (NS_UNAVAIL); 614 1.33.6.2 gmcgarry 615 1.33.6.2 gmcgarry /* 616 1.33.6.2 gmcgarry * In both the threaded and non-threaded cases, avoid reloading 617 1.33.6.2 gmcgarry * the configuration if the current thread is already running 618 1.33.6.2 gmcgarry * nsdispatch() (i.e. recursive call). 619 1.33.6.2 gmcgarry * 620 1.33.6.2 gmcgarry * In the non-threaded case, this avoids changing the data structures 621 1.33.6.2 gmcgarry * while we're using them. 622 1.33.6.2 gmcgarry * 623 1.33.6.2 gmcgarry * In the threaded case, this avoids trying to take a write lock 624 1.33.6.2 gmcgarry * while the current thread holds a read lock (which would result 625 1.33.6.2 gmcgarry * in deadlock). 626 1.33.6.2 gmcgarry */ 627 1.33.6.2 gmcgarry #ifdef _REENTRANT 628 1.33.6.2 gmcgarry if (__isthreaded) { 629 1.33.6.2 gmcgarry drec.thr = thr_self(); 630 1.33.6.2 gmcgarry mutex_lock(&_ns_drec_lock); 631 1.33.6.2 gmcgarry LIST_FOREACH(ldrec, &_ns_drec, list) { 632 1.33.6.2 gmcgarry if (ldrec->thr == drec.thr) 633 1.33.6.2 gmcgarry break; 634 1.33.6.2 gmcgarry } 635 1.33.6.2 gmcgarry LIST_INSERT_HEAD(&_ns_drec, &drec, list); 636 1.33.6.2 gmcgarry mutex_unlock(&_ns_drec_lock); 637 1.33.6.2 gmcgarry if (ldrec == NULL && _nsconfigure()) { 638 1.33.6.2 gmcgarry mutex_lock(&_ns_drec_lock); 639 1.33.6.2 gmcgarry LIST_REMOVE(&drec, list); 640 1.33.6.2 gmcgarry mutex_unlock(&_ns_drec_lock); 641 1.33.6.2 gmcgarry return (NS_UNAVAIL); 642 1.33.6.2 gmcgarry } 643 1.33.6.2 gmcgarry } else 644 1.33.6.2 gmcgarry #endif /* _REENTRANT */ 645 1.33.6.2 gmcgarry if (_nsdispatching++ == 0 && _nsconfigure()) { 646 1.33.6.2 gmcgarry _nsdispatching--; 647 1.33.6.2 gmcgarry return (NS_UNAVAIL); 648 1.33.6.2 gmcgarry } 649 1.33.6.2 gmcgarry 650 1.33.6.2 gmcgarry rwlock_rdlock(&_nslock); 651 1.33.6.2 gmcgarry 652 1.33.6.2 gmcgarry key.name = database; 653 1.33.6.2 gmcgarry dbt = bsearch(&key, _nsmap, _nsmapsize, sizeof(*_nsmap), _nsdbtcmp); 654 1.33.6.2 gmcgarry if (dbt != NULL) { 655 1.33.6.2 gmcgarry srclist = dbt->srclist; 656 1.33.6.2 gmcgarry srclistsize = dbt->srclistsize; 657 1.33.6.2 gmcgarry } else { 658 1.33.6.2 gmcgarry srclist = defaults; 659 1.33.6.2 gmcgarry srclistsize = 0; 660 1.33.6.2 gmcgarry while (srclist[srclistsize].name != NULL) 661 1.33.6.2 gmcgarry srclistsize++; 662 1.33.6.2 gmcgarry } 663 1.33.6.2 gmcgarry result = 0; 664 1.33.6.2 gmcgarry 665 1.33.6.2 gmcgarry for (i = 0; i < srclistsize; i++) { 666 1.33.6.2 gmcgarry cb = _nsmethod(srclist[i].name, database, method, 667 1.33.6.2 gmcgarry disp_tab, &cb_data); 668 1.33.6.2 gmcgarry result = 0; 669 1.33.6.2 gmcgarry if (cb != NULL) { 670 1.33.6.2 gmcgarry va_start(ap, defaults); 671 1.33.6.2 gmcgarry result = (*cb)(retval, cb_data, ap); 672 1.33.6.2 gmcgarry va_end(ap); 673 1.33.6.2 gmcgarry if (defaults[0].flags & NS_FORCEALL) 674 1.33.6.2 gmcgarry continue; 675 1.33.6.2 gmcgarry if (result & srclist[i].flags) 676 1.33.6.2 gmcgarry break; 677 1.33.6.2 gmcgarry } 678 1.33.6.2 gmcgarry } 679 1.33.6.2 gmcgarry result &= NS_STATUSMASK; /* clear private flags in result */ 680 1.33.6.2 gmcgarry 681 1.33.6.2 gmcgarry rwlock_unlock(&_nslock); 682 1.33.6.2 gmcgarry 683 1.33.6.2 gmcgarry #ifdef _REENTRANT 684 1.33.6.2 gmcgarry if (__isthreaded) { 685 1.33.6.2 gmcgarry mutex_lock(&_ns_drec_lock); 686 1.33.6.2 gmcgarry LIST_REMOVE(&drec, list); 687 1.33.6.2 gmcgarry mutex_unlock(&_ns_drec_lock); 688 1.33.6.2 gmcgarry } else 689 1.33.6.2 gmcgarry #endif /* _REENTRANT */ 690 1.33.6.2 gmcgarry _nsdispatching--; 691 1.33.6.2 gmcgarry 692 1.33.6.2 gmcgarry return (result ? result : NS_NOTFOUND); 693 1.33.6.2 gmcgarry } 694
Indexes created Tue Sep 30 17:09:57 GMT 2025